Stefanie Lorke scite author profile

Stefanie Lorke

5Publications

28Citation Statements Received

27Citation Statements Given

How they've been cited

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Affiliations

Stuttgart Observatory, RWTH Aachen University

Publications

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On the Effect of Current on Wave Run-Up and Wave Overtopping

Lorke¹,

Brüning²,

Meer³

et al. 2011

Int. Conf. Coastal. Eng.

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Intention of the project FlowDike-D is to quantify the impacts of current and wind on wave run-up and wave overtopping and to consider these processes in existing design formulae for estuarine, river and sea dikes. Physical model tests were carried out in the shallow water basin at DHI (Hørsholm/Denmark) for two different dike geometries (1:3 and 1:6 sloped dike). The paper introduces the model setup and test programme followed by a short description of the applied instrumentation. The test results for wave run-up and wave overtopping with oblique and non-oblique wave attack, but without current, correspond well with existing formulae from the EurOtop-Manual (2007). The influence of current parallel to the dike combined with different angles of wave attack on wave overtopping and wave run-up has been quantified. A distinction was made between wave attack with and against the current.

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Experimental Modelling of Chemical Clogging Processes in Dewatering Wells

et al. 2012

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Physical Model Tests on Wave Overtopping and Flow Processes on Dike Crests Influenced by Wave-Current Interaction

Lorke

Scheres

Schüttrumpf

et al. 2012

Int. Conf. Coastal. Eng.

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Flow processes like flow depths and flow velocities give important information about erosion and infiltration processes, which can lead to an unstable dike structure and consequently to dike failure. Up to now several physical model tests on wave run-up and wave overtopping are available to adjust and improve design formula for different dike structures. This kind of physical model tests have been performed in the here presented project FlowDike. Its main purpose is to consider two new aspects that could influence the assessment of wave run-up and wave overtopping as well as the flow processes on dikes which have not been investigated yet: longshore current and wind. Especially in estuaries and along coasts, the effect of tidal and storm induced currents combined with local wind fields can influence the incoming wave parameters at the dike toe as well as the wave run-up height, the wave overtopping rate and the flow processes on dikes. This paper will focus on these flow processes on dike slopes and dike crests on an 1:6 sloped dike influenced by oblique wave attack and longshore current.

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Wellenüberlauf an Flussdeichen

Lorke¹,

Schüttrumpf²,

Pohl³

2012

Wasserwirtsch

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Hydrotoxikologie — Eine Methodik zur Bewertung schadstoffbelasteter Sedimente in Stauseen

Cofalla¹,

Lorke²,

Schüttrumpf³

et al. 2014

Wasserwirtsch

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Stefanie Lorke

On the Effect of Current on Wave Run-Up and Wave Overtopping

Experimental Modelling of Chemical Clogging Processes in Dewatering Wells

Physical Model Tests on Wave Overtopping and Flow Processes on Dike Crests Influenced by Wave-Current Interaction

Wellenüberlauf an Flussdeichen

Hydrotoxikologie — Eine Methodik zur Bewertung schadstoffbelasteter Sedimente in Stauseen

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